A Review on Graphene Oxide-Based Ferrite Nanocomposites for Catalytic Applications

Abstract

This review discusses the synthesis, characterization, catalytic applications, mechanisms, current advances, challenges, and environmental consequences of Graphene oxide-based ferrite nanocomposites. The synthesis described the strategies used to synthesize these nanocomposites. The structural characterization was discussed using XRD, FTIR, and Raman spectroscopy techniques and how it could learn about their chemical composition and bonding. Morphological characterization said the results obtained on the nanostructure of these nanocomposites. The catalytic application phase is concerned with their use in photocatalysis, electrocatalysis, and magnetic catalysis, as well as the synergistic impact and the extra suitable electron switch pathways. The assessment also highlighted emerging developments in synthesis, novel catalytic applications, and capacity applications. The challenges and destiny directions discussed the importance of particular synthesis, management, balance, enhancement, and scalability. Compared to the sustainability, economic viability, and ecological effect, the environmental and monetary issues section underlined the significance of environmentally pleasant manufacturing and massive-scale viability.